FreeCalypso > hg > freecalypso-sw
view gsm-fw/services/etm/etm_api.c @ 437:1d78af921a5a
os_mem_ir.c: os_PartitionCheck() done
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Sun, 22 Jun 2014 21:01:32 +0000 |
parents | f9ac53d8e999 |
children | 6de5661d1fe1 |
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/******************************************************************************** * Enhanced TestMode (ETM) * @file etm_api.c * * API for ETM SWE. * * @author Kim T. Peteren (ktp@ti.com) * @version 0.1 * * * History: * * Date Modification * ------------------------------------ * 11/06/2003 Creation * * (C) Copyright 2003 by Texas Instruments Incorporated, All Rights Reserved *********************************************************************************/ #include "etm.h" #include "etm_env.h" #include "etm_messages_i.h" #include "etm_trace.h" #include "etm_misc.h" #include "../../riviera/rvf/rvf_api.h" #include <string.h> extern T_ETM_ENV_CTRL_BLK *etm_env_ctrl_blk; /******************************************************************************** * Registers the SWE to the ETM instance. * * This is a bridge function. It sends the T_ETM_REGISTRATION_REQ * message to the ETM SWE. * It is the first function that should be called. * * @return ETM_NOMEM in case of a memory error, * the return value of rvf_send_msg otherwise. *********************************************************************************/ int etm_register(char name[], int mid, int task_id, T_RVF_ADDR_ID addr_id, ETM_CALLBACK_FUNC callback) { /* Type for a registration event. */ T_ETM_REGISTER_REQ *etm_registration_p; tr_etm(TgTrEtmLow, "ETM API: _register bridge function(%s)", name); /* Allocate the memory for the message to send */ if ((etm_registration_p = (T_ETM_REGISTER_REQ*) etm_malloc(sizeof(T_ETM_REGISTER_REQ))) == NULL) return ETM_NOMEM; /* Fill the message id */ etm_registration_p->header.msg_id = ETM_REGISTER_REQ; /* Fill the address source id */ etm_registration_p->header.src_addr_id = rvf_get_taskid(); etm_registration_p->header.dest_addr_id = etm_env_ctrl_blk->addr_id; etm_registration_p->header.callback_func = NULL; /* Fill the message parameters */ memcpy(etm_registration_p->name, name, strlen(name)); etm_registration_p->mid = mid; etm_registration_p->task_id = task_id; etm_registration_p->addr_id = addr_id; etm_registration_p->rx_callback_func = callback; /* Send the message using mailbox. */ return rvf_send_msg(etm_env_ctrl_blk->addr_id, (void*) etm_registration_p); } /******************************************************************************** * Cleans ETM register tables, i.e. set/clean the variable at their * initialization state for a specific entity. * This function can be used to reinitialize ETM register database without * having to start/stop it. * * This is a bridge function. It sends ETM_UNREGISTER message to ETM. * * @return ETM_NOMEM in case of a memory error, * the return value of rvf_send_msg otherwise. *********************************************************************************/ int etm_unregister(char name[], int mid, int task_id, T_RVF_ADDR_ID addr_id, ETM_CALLBACK_FUNC callback) { /* Type for a start input event. */ T_ETM_UNREGISTER *etm_unregister_p; tr_etm(TgTrEtmLow, "ETM API: _unregister bridge function"); /* Allocate the memory for the message to send */ if ((etm_unregister_p = (T_ETM_UNREGISTER*) etm_malloc(sizeof(T_ETM_UNREGISTER))) == NULL) return ETM_NOMEM; /* Fill the message id */ etm_unregister_p->header.msg_id = ETM_UNREGISTER; /* Fill the address source id */ etm_unregister_p->header.src_addr_id = rvf_get_taskid(); etm_unregister_p->header.dest_addr_id = etm_env_ctrl_blk->addr_id; etm_unregister_p->header.callback_func = NULL; /* Fill the message parameters */ memcpy(etm_unregister_p->name, name, strlen(name)); etm_unregister_p->mid = mid; etm_unregister_p->task_id = task_id; etm_unregister_p->addr_id = addr_id; etm_unregister_p->rx_callback_func = callback; /* Send the message using mailbox. */ return rvf_send_msg(etm_env_ctrl_blk->addr_id, (void*) etm_unregister_p); } /******************************************************************************** * Get data from a ETM packet structur. Get either 8, 16 or 32 value * Used to unpack data * * This is helpers * * @return the return value of the point of the ETM packet. *********************************************************************************/ int etm_get8(void *buf) { unsigned char *p = buf; int value = *p; tr_etm(TgTrEtmLow, "ETM API: _get8(%d)", value); return value; } int etm_get16(void *buf) { unsigned char *p = buf; int value = (p[0] | (p[1] << 8)); tr_etm(TgTrEtmLow, "ETM API: _get16(%d)", value); return value; } int etm_get32(void *buf) { unsigned char *p = buf; int value = 0; value = *p; p++; value |= (*p << 8); p++; value |= (*p << 16); p++; value |= (*p << 24); tr_etm(TgTrEtmLow, "ETM API: _get32(%d)", value); return value; } /******************************************************************************** * Put data into a ETM packet structur. Put either 8, 16 or 32 value * Used to pack data * * This is helpers * * @return Return ETM_PACKET of ETM_OK. *********************************************************************************/ #define max_ul_data_size 240 int etm_pkt_put8(T_ETM_PKT *pkt, int value) { tr_etm(TgTrEtmLow, "ETM API: _pkt_put8(*, %d)", value); if (pkt->index + 1 > max_ul_data_size) return ETM_PACKET; pkt->data[pkt->index] = value; pkt->index += 1; pkt->size += 1; return ETM_OK; } int etm_pkt_put16(T_ETM_PKT *pkt, int value) { tr_etm(TgTrEtmLow, "ETM API: _pkt_put16(*, %d)", value); if (pkt->index + 2 > max_ul_data_size) return ETM_PACKET; memcpy(&pkt->data[pkt->index], &value, 2); pkt->index += 2; pkt->size += 2; return ETM_OK; } int etm_pkt_put32(T_ETM_PKT *pkt, int value) { tr_etm(TgTrEtmLow, "ETM API: _pkt_put32(*, %d)", value); if (pkt->index + 4 > max_ul_data_size) return ETM_PACKET; memcpy(&pkt->data[pkt->index], &value, 4); pkt->index += 4; pkt->size += 4; return ETM_OK; } int etm_pkt_putdata(T_ETM_PKT *pkt, const void *buf, int size) { tr_etm(TgTrEtmLow, "ETM API: _pkt_putdata(*, %d)", size); if (pkt->index + size > max_ul_data_size) return ETM_PACKET; memcpy(&pkt->data[pkt->index], buf, size); pkt->index += size; pkt->size += size; return ETM_OK; } /******************************************************************************** * This function is used to send an ETM Packet to the PC * * This is helpers * * @return Return value of rvf_send_trace_cpy. *********************************************************************************/ int etm_pkt_send(T_ETM_PKT *pkt) { extern unsigned char etm_trace_user_id; uint8 *buf, cksum = 0, sendsize, size; int error = ETM_OK; buf = (uint8 *) &pkt->mid; sendsize = size = pkt->size + 2; //one for mid, one for status tr_etm(TgTrEtmLow, "ETM API: _pkt_send: size(%d)", sendsize); while (size-- ) { cksum ^= *buf++; } *buf = cksum; sendsize += 1; // one for checksum tr_etm_hexdump(TgTrEtmLow, &pkt->mid, sendsize); error = rvt_send_trace_cpy((uint8 *) &pkt->mid, etm_trace_user_id, sendsize, RVT_BINARY_FORMAT); if(error < 0) tr_etm(TgTrFatal, "ETM API: _pkt_send: ERROR(%d)", error); return error; }